CS197574B1 - Connection of the code convertor with the width modulation for the binary code - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to the connection of a width-to-two-code code converter using logic circuits.

In the case of serial data transmission in digital form and especially when writing to a magnetic tape, it is advantageous to use a code with a width modulation, since it is possible to extract clock impulses directly from this type of code. In contrast, a two-state code is required for processing in current two-level logic. It is therefore necessary to realize converters between the two types of code modulation systems. The width modulation system is characterized in that at the beginning of each bit period there is a transition between the maximum and minimum signal levels. In case of transfer of log. "0" is no further transition within the bit period, in case of log. "1" is the transition still in the middle of the bit period. The two-state code is log. "0" and log. “1” is always assigned one signal level and the transition between them is only at the beginning of the bit period where the logic variable is changed.

In known circuit solutions, only the portion of the bit period that corresponds to the duration of the clock pulse is usually converted to a binary state code, or it is an attempt to complicate sampling the code through other modulation systems.

These drawbacks are solved by the wiring of the transmission according to the invention, the principle being that the input terminal of the width modulation code is connected to the input of the memory element and its direct output is connected to the input of the second memory element. The input terminal of the clock pulses is connected to the clock inputs of both memory elements. Their direct outputs are further connected to the first and second inputs of the logic circuit and inverted outputs to the third and fourth inputs of the same logic circuit, which performs the logic function “Exclusive Nor”. The output of this logic circuit is the output of the entire converter.

This simple wired circuit allows direct code conversion with width modulation, regardless of the code hit rate and its information structure. The conversion is performed directly without changing to another code form, which ensures functional reliability in addition to simplicity of connection.

The attached drawing shows a block diagram of the conversion code.

The input modulation code K with width modulation is connected to input 7 of the first pa25 of the measuring element 1. Its direct output 4 is connected to input 7 of the second memory element 2. This connection makes it possible to move the content of memory element 1 into memory element 2 by clock pulses are obtained from the code K with a mo197574 width. The clock pulses H are applied to the clock inputs 6 of the memory elements 1 and 2. The logic circuit 3, which implements the logic function "Exclusive Nor", is connected by the first and second inputs to the direct outputs 4 of memory elements 1 and 2, the third and fourth inputs the outputs 5 of the same memory elements 1 and 2. The output V of the logic circuit 3 already receives information in the form of a two-state code. If we sample the signal of the code K with the width modulation always at the time of the clock pulse H, it is po

SUBJECT

Claims (1)

SUBJECT Connection of a width modulation code converter to a two-state code, characterized in that the width modulation code terminal (K) is connected to the input (7) of the first memory element (1) and the input (7) of the second memory element (2) is connected to the direct output (4) of the first memory element (1) and the terminal (Hj of the clock pulses is at the beginning of the bit period and if two consecutive level samples are stored in the memory elements 1 and 2) If mutant samples are bounded by logical "1" or it is different, bounded by logical "O" If we are now continuously evaluating the contents of both memory elements 1 and 2 using logic circuit 3 "Exclusive Nor", we get output V A dual status code carrying the same information as the input code, with only a one-bit phase shift.